/// <summary>
/// Public EndianBinaryWriter constructor
/// </summary>
/// <param name="str">Base Stream object</param>
/// <param name="enc">Encoding object</param>
/// <param name="endian">Endian object</param>
public EndianBinaryWriter(Stream str, Encoding enc, Endian endian)
: base(str, enc)
{
myEndian = endian;
}
/// <summary>
/// Public EndianBinaryWriter constructor
/// </summary>
/// <param name="str">Stream</param>
/// <param name="endian">Endian object</param>
public EndianBinaryWriter(Stream str, Endian endian)
: base(str)
{
myEndian = endian;
}
/// <summary>
/// Parse the COFF file and put info into public Hashtables
/// </summary>
private void ParseObjectFile()
{
ELF_SectionHeader secHdr;
// Output console message
Console.WriteLine("Parsing the input Object file, {0}.", (String) headerRef["fullName"]);
// Parse the ELF header
try
{
hdr = ELFFile.ParseELFHeader(binFile);
}
catch (Exception e)
{
Console.Write(e.Message);
return;
}
// Determine the Endianness and use an EndianBinaryReader Object
endian = (ELF_DataEncoding.ELFDATA_2LSB == hdr.e_ident.dataEncoding) ? Endian.LittleEndian : Endian.BigEndian;
EndianBinaryReader ebr = new EndianBinaryReader(binFile,endian);
// Set endianness
headerRef["endian"] = endian;
Debug.DebugMSG("Endianness: " + endian.ToString());
// Read the section headers
headerRef["numSectionHdrs"] = (UInt32) hdr.e_shnum;
Debug.DebugMSG("numSectionHdrs: " + ((UInt32)headerRef["numSectionHdrs"]).ToString("X4"));
headerRef["numBootSections"] = (UInt32)0;
headerRef["numTargetSections"] = (UInt32)0;
ParseSectionHdrs();
// Find the symbol table section, symbol table entry size, and numbr of symbols
secFind(".symtab");
secHdr = ReadSectionHeader(currSecNum);
if (secHdr.sh_type != ELF_SectionType.SHT_SYMTAB)
{
throw new Exception("Symbol table not found in file!");
}
headerRef["symbolTableAddr"] = (UInt64) secHdr.sh_offset;
headerRef["symbolTableEntrySize"] = (UInt32) secHdr.sh_entsize;
headerRef["numEntriesInSymTable"] = (UInt32) (secHdr.sh_size / secHdr.sh_entsize);
Debug.DebugMSG("symbolTableAddr: " + ((UInt64)headerRef["symbolTableAddr"]).ToString("X8"));
Debug.DebugMSG("symbolTableEntrySize: " + ((UInt32)headerRef["symbolTableEntrySize"]).ToString("X8"));
Debug.DebugMSG("numEntriesInSymTable: " + ((UInt32)headerRef["numEntriesInSymTable"]).ToString());
// Find the string table section
secFind(".strtab");
secHdr = ReadSectionHeader(currSecNum);
if (secHdr.sh_type != ELF_SectionType.SHT_STRTAB)
{
throw new Exception("String table not found in file!");
}
// Verify that the section header string table section is flagged as a string section
if ( ( ((UInt64) secHdr.sh_flags) & ((UInt64) ELF_SectionFlag.SHF_STRINGS) ) == 0 )
{
throw new Exception("Section Header String Section is not flagged with SHF_STRINGS.");
}
headerRef["stringTableAddr"] = (UInt64) secHdr.sh_offset;
Debug.DebugMSG("stringTableAddr: " + ((UInt64)headerRef["stringTableAddr"]).ToString("X8"));
// Now parse the symbol table
ParseSymbolTable();
// Read the remaining pertinent info from header
headerRef["versionID"] = (UInt32) hdr.e_version;
Debug.DebugMSG("versionID: " + ((UInt32)headerRef["versionID"]).ToString("X4"));
headerRef["flags"] = hdr.e_flags;
Debug.DebugMSG("flags: " + ((UInt32)headerRef["flags"]).ToString("X8"));
}
// Equals operator for this class
public bool Equals(Endian endian)
{
return (bool)( this.endianness == endian.endianness);
}
/// <summary>
/// Parse the COFF file and put info into public Hashtables
/// </summary>
private void ParseCOFFFile()
{
UInt32 magicNum;
UInt32 thisCoff;
// Output console message
Console.WriteLine("Parsing the input COFF file, {0}.", (String) headerRef["fullName"]);
// Check for COFF magic number and endianness
binFile.Seek(20, SeekOrigin.Begin);
magicNum = ((UInt32)binFile.ReadByte() << 8) | ((UInt32)binFile.ReadByte());
Debug.DebugMSG("MagicNum: " + magicNum.ToString("X4"));
if (magicNum == 0x9900)
endian = Endian.LittleEndian;
else if (magicNum == 0x0099)
endian = Endian.BigEndian;
else
throw new Exception("Invalid COFF magic number " + magicNum.ToString("X4"));
// Set endianness
headerRef["endian"] = endian;
Debug.DebugMSG("Endianness: " + endian.ToString());
binFile.Seek(0, SeekOrigin.Begin);
EndianBinaryReader COFFbr = new EndianBinaryReader(binFile,endian);
thisCoff = (UInt32) COFFbr.ReadUInt16();
if (thisCoff == 0x0099)
{
COFFVersion = COFFType.COFF0;
}
else if (thisCoff == (UInt16)COFFType.COFF1)
{
COFFVersion = COFFType.COFF1;
}
else if (thisCoff == (UInt16)COFFType.COFF2)
{
COFFVersion = COFFType.COFF2;
}
// Read the main COFF header
headerRef["versionID"] = thisCoff;
Debug.DebugMSG("versionID: " + thisCoff.ToString("X4"));
headerRef["numSectionHdrs"] = (UInt32) COFFbr.ReadUInt16();
Debug.DebugMSG("numSectionHdrs: " + ((UInt32)headerRef["numSectionHdrs"]).ToString("X4"));
headerRef["dateStamp"] = COFFbr.ReadUInt32();
Debug.DebugMSG("datestamp: " + ((UInt32)headerRef["dateStamp"]).ToString("X8"));
headerRef["symbolTableAddr"] = COFFbr.ReadUInt32();
Debug.DebugMSG("symbolTableAddr: " + ((UInt32)headerRef["symbolTableAddr"]).ToString("X8"));
headerRef["numEntriesInSymTable"] = COFFbr.ReadUInt32();
Debug.DebugMSG("numEntriesInSymTable: " + ((UInt32)headerRef["numEntriesInSymTable"]).ToString("X8"));
numBytesInOptHdr = (UInt32) COFFbr.ReadUInt16();
headerRef["numBytesInOptHdr"] = numBytesInOptHdr;
Debug.DebugMSG("numBytesInOptHdr: " + ((UInt32)headerRef["numBytesInOptHdr"]).ToString("X4"));
headerRef["flags"] = (UInt32) COFFbr.ReadUInt16();
Debug.DebugMSG("flags: " + ((UInt32)headerRef["flags"]).ToString("X4"));
Debug.DebugMSG("COFFType: " + ((UInt32)COFFType.COFF0).ToString());
if (COFFVersion != COFFType.COFF0)
{
headerRef["magicNum"] = (UInt32) COFFbr.ReadUInt16();
Debug.DebugMSG("magicNum: " + ((UInt32)headerRef["magicNum"]).ToString("X4"));
numBytesInHdr = 22;
}
else
{
numBytesInHdr = 20;
}
headerRef["numBootSections"] = (UInt32)0;
headerRef["numTargetSections"] = (UInt32)0;
// Read the optional COFF header
if (numBytesInOptHdr != 0)
{
COFFbr.BaseStream.Seek(numBytesInHdr,SeekOrigin.Begin);
headerRef["optMagicNumber"] = (UInt32) COFFbr.ReadUInt16();
Debug.DebugMSG("optMagicNumber: " + ((UInt32)headerRef["optMagicNumber"]).ToString("X4"));
headerRef["optVersionStamp"] = (UInt32)COFFbr.ReadUInt16();
Debug.DebugMSG("optVersionStamp: " + ((UInt32)headerRef["optVersionStamp"]).ToString("X4"));
headerRef["optExeSize"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optExeSize: " + ((UInt32)headerRef["optExeSize"]).ToString("X8"));
headerRef["optInitSize"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optInitSize: " + ((UInt32)headerRef["optInitSize"]).ToString("X8"));
headerRef["optUninitSize"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optUninitSize: " + ((UInt32)headerRef["optUninitSize"]).ToString("X8"));
headerRef["optEntryPoint"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optEntryPoint: " + ((UInt32)headerRef["optEntryPoint"]).ToString("X8"));
headerRef["optExeAddr"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optExeAddr: " + ((UInt32)headerRef["optExeAddr"]).ToString("X8"));
headerRef["optInitAddr"] = COFFbr.ReadUInt32();
Debug.DebugMSG("optInitAddr: " + ((UInt32)headerRef["optInitAddr"]).ToString("X8"));
}
// Read the section headers
ParseSectionHdrs();
// Parse the symbol table
ParseSymbolTable();
}
